至今,GenScript的服务及产品已被Cell, Nature, Science, PNAS等1300多家生物医药类杂志引用近万次,处于行业领先水平。NIH、哈佛、耶鲁、斯坦福、普林斯顿、杜克大学等约400家全球著名机构使用GenScript的基因合成、多肽服务、抗体服务和蛋白服务等成功地发表科研成果,再次证明GenScript 有能力帮助业内科学家Make research easy.

E2/E3‐independent ubiquitin‐like protein conjugation by Urm1 is directly coupled to cysteine persulfidation

EMBO J. 2022-09; 
Keerthiraju E Ravichandran , Lars Kaduhr , Bozena Skupien-Rabian , Ekaterina Shvetsova , Mikołaj Sokołowski , Ros Cisław Krutyhołowa ,Dominika Kwasna , Cindy Brachmann , Sean Lin , Sebastian Guzman Perez , Piotr Wilk , Manuel Kösters , Przemysław Grudnik , Urszula Jankowska , Sebastian A Leidel , Raffael Schaffrath , Sebastian Glatt
Products/Services Used Details Operation
Gene Synthesis Homo sapiens URM1 Q9BTM9 Genscript;Homo sapiens PRDX5 P30044 Genscript; Homo sapiens GAPDH P04406 Genscript Get A Quote

摘要

Post-translational modifications by ubiquitin-like proteins (UBLs) are essential for nearly all cellular processes. Ubiquitin-related modifier 1 (Urm1) is a unique UBL, which plays a key role in tRNA anticodon thiolation as a sulfur carrier protein (SCP) and is linked to the noncanonical E1 enzyme Uba4 (ubiquitin-like protein activator 4). While Urm1 has also been observed to conjugate to target proteins like other UBLs, the molecular mechanism of its attachment remains unknown. Here, we reconstitute the covalent attachment of thiocarboxylated Urm1 to various cellular target proteins in vitro, revealing that, unlike other known UBLs, this process is E2/E3-independent and requires oxidative stress. Furthermore, ... More

关键词

Urm1; oxidative stress; persulfidation; sulfur transfer; ubiquitin-like.